Combined typewriting and computing



April 3, 1945.

Filed May 27, 1940 13 Sheets-Sheet l 1 HENRY L. PIT/WAN April 3, 1945.

H. L. 'PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Filed Ma 27, 1940 13 Sheets-Sheet 2 INVENTOR HENRY L. P/TMA/V 2 ATTO RNEY

April 3,1945; H. L PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Fi led May 27, 1940 13 Sheets-Sheet 3 INVENTOR HENRY L. P/TMAN g ATTORNEY April 3; 1945. pn-MAN 2,372,681

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed May 27, 1940 13 Sheets-Sheet 4 INVENT\OR HENRY L. P/TMA/V ATTORNEY April 1945. H. L. PlTMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Filed May 27, 1940 13 Sheets-Sheet 5 INVENTOR HENRY L. P/TMAN ATTORNEY April 3, 1945. H L P TM N 2,372,681

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed May 27, 1940 15 Sheets-Sheet 6 April 3; 1945. H L PWMAN 2,372,681

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed My 27, 1940 13 Sheets-Sheet 7 1a! w 3; J/&v@ 7 o o y $1 1Y5, IZ//? A l IVENTOR ATTORNEY HENRY L. P/TMA/V.

April 3, 1945'. HTMAN 2,372,681

7 COMBINED TYPEWRITING AND COMPUTING MACHINE Fil ed May 27, 1940 13 Sheets-Sheet 8 1 INVENTOR HENRY 1.. PI TMAN' ATTORNEY April 3, 1945. n- 2,372,681

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed ma 27, 1940 1:5 Sheets-Sheet 9 INVENTOR HENRY 1.. P/TMAN ATTORNEY April 3, 1945. pn- 2,372,681

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed May 27, 51940 l3 Sheets-Sheet l0 INVENTOR HENRY L. P/TMAN ATTORNEY April 3, 1945. H. L PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE 15 Shee ts-Sheet 11 Filed May 27, 1940 INVENTOR #[MQV [J /7774 BY 1 N ATTORNEY April 1945- H. L PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Filed May- 27, 1940 13 Sheets-Sheet 12 INVENTOR HENRY L. P/TMAN BY )6 (f ATTORNEY Patented Apr. 3, 1945 COMBINED TYPEWRITING AND COMPUTING MACHINE Henry Pitman, Hartford, Conn., assignor to Underwood Elliott Fisher Company, New York. N. Y., a corporation of Delaware Application May 27, 1940, Serial No. 337,380 23 Claims. (cuss-60 This invention relates to combined typewriting and computing machines and deals with automatically actuating typewriter mechanism for printing totals standing in registers.

The invention is herein illustratively embodied in a machine of the Underwood-Hanson class. In such machines, computing pinion actuators of different denominations are indexed through operation of numeral type actions of the typewriter, the typewriter carriage cooperating to select the actuators seriatim in denominational order for the indexing. The indexed actuators are subsequently cycled to run the indexed amount into computing wheels which thus accumulate totals. The machine may have a plurality of registers or sets of computing wheels.

The general object of the invention is to provide improved mechanism for automatically actuating the typewriter mechanism for total printing.

Another object is to provide for. such automatic to .be printed at one or another total printing zone of the carriage. p

' Another object is to print the total successively from each of several registers and moreover to have such succession of total printings progress automatically followin a suitable initiatory operation.

Another object is to provide for suppressing at will the feature of automatic succession of total printings. r

Another object is to effect automatically the printing of a clear signas where the total printing involves clearing of the register, to indicate that such clearing has actually been effected.

Another object is to provide that'if by some abnormality there is failure in clearingthe register at total printing, such failure will become immediately manifest to the operator. 1

' In subtotal printing the register is not cleared, that is, the subtotal is left standing in the register. Another object is to print automatically by means of the typewriter mechanism a sign indentifiable with the printed subtotal to indicate the latter as such,

A subtotal key may beprovided and is operable manually to condition the machineior subfor total printing.

The invention is herein illustratively applied to total printing mechanism of the kind disclosed in my co-pending application, Serial No. 42,611, filed September 28, 1935, now Patent No. 2,258,- 714, dated October 14, 1941, and in Pitman Patent No. 2,192,365, dated March 5, 1940.

The foregoing and other objects features and advantages will be understood from the following description with reference to the drawings, and from the novel combinations and features of construction embodying the invention as defined in the appended claims.

In the drawings:-

Figure 1 is aside elevation of details of the clear sign printing mechanism.

Figure 2 is a, cross sectional side elevation of a combined typewriting and computing machine embodying the invention.

Figure 3 is a top plan view of the computing base showing details and a diagram of the register selecting connections.

Figure 4 is a viewv from, the underside of the computing base of details of clear sign printing connections.

Figure 5-is a perspective of the mechanism mainly in the computing base arranged as to register selection for total printing and clear sign printing.

Figure 6 is a perspective of mechanism for controlling operation of thenumeral type actions Figure 7 is a cross sectional side view of Figure 6 mechanism.

Figure 8 15 a front elevation of details of connections for confining total printing to one register.

Figure 9 is a skeleton perspective; of details I of total-reading and type-selecting mechanism.

trolling cycling of the general operator.

Figure 11 is a. fragmentary rear elevation of the-cycling-clutch mechanism.

Figure 12 is an enlarged scale side view of the register-selecting and total-printing controls operable by the typing carriage.

Figure 13 is a. cross sectional side view showing the operated position of parts involved in total reading and type selecting.

Figure 14 is a cross sectional side view of register-selecting and total-taking control parts in operated positions.

Figure 15 is a cross sectional side view showing the Figure 14 parts substantially in normal positions.

Figure 16 is a cross sectional side view of parts, supplementing the Figure 14 parts, in operated positions for register-selecting and total-printing control.

Figure 17 is a cross sectional side view showing employed for determining subtotal printing.

Figure 22 is a front elevation of a carriage operable control member.

Figure 23 is a cross sectional side view of carriage operable control members.

Figure 24 is a perspective of the mechanism involved in carriage controlled automatic operation of a total key.

Figure 25 is a front elevation. of tappet means on the carriage.

Figure 26 is a cross sectional side view of the mechanism employed for printing a subtotal sign.

Figure 27 is a cross sectional side view showing parts of Figure 26 in operated position.

Figures 28, 29 and 30 are side view diagrams illustrating normal and operated stages of parts Of Figure '26.

Figures 31 and 32 are cross sectional side views of the register mechanism and its clear sign printing controls, Figure 31 showing the parts in normal positions and Figure 32 showing the parts during a, general operator cycle.

Figure 33 is a perspective of the mechanism controlling subtotal sign printing and subtotaling.

Figures 34 and 35 are diagrams illustrating carriage-control set-:ups for different work sheet forms. 7

Typewriter mechanism Numeral keys 40 have stems 4| vertically niov- I able in guides, partly shown at 42, Figure 2.

Each key 40 is for a corresponding numeral type action which comprises a type bar 43, anoperating lever 44 and bell crank 45. these parts having fulcrums 46 in the framework. The levers 44 extend forwardly through a guidecombfl, and

each is connected by a link 49 to a lever 50, the

Depression of the key able laterally upon front and rear rails 66 on the typewriter frame. A letter-feed rack B! on the carriage engages a pinion B2 of an esc'apement wheel 63 cooperative with escapement dogs 64 actuated by means of a universal bar 65 which is common to and actuatable by the type bars 43.

A spring motor 66 moves the carriage in letterfeed direction at operation .of the e'scapement devices.' I

Computing base The computing base CB, Figure 2, is surmounted by the typewriter T. It contains laterally spaced sets of computing pinions 68, each set forming a totalizer. Laterally spaced sets of actuators or register bars 69 for the computing pinions are slidably guided in front and rear combs l0, ll in the computing base framework. Each set of register bars 69 has permanently meshed with its racks 69 a set of idlers 712 rotatable on a fixed shalt E3 in the framework. Each set of computing pinions 68 normally stands disengaged from its racks 69 and idlers 12. Each set of pinions- 58 turns on a shaft'lt mounted between side plates 15 forming a frame with which the set of pinions is movable downwardly to mesh directly with the racks 69 59; for addition, or rearwardly to mesh with the idlers l2 for subtraction.

Each register bar 69 has digit pins 15 from 0" to "9." All the 0 pins, the first from the left of Figure 2, are normally depressed. Each register bar 99 is normally shouldered against the rear guide II by a spring Ii; but is slightly advanceable from the Figure 2 position to bring its pins underneath corresponding pin-setting bars 11 of pin-setting linkages 18. Each pin-setting linkage includes a rock-shaft 19 having a. horizontal crank arm which is engageable by a rod 8i pivoted to and pendent from a corresponding numeral type action lever 46.

Carriage control of reg ster bars Denominational jack rods 92 are slidably supported for vertical movement in upper and lower guide combs 84 and 84, Figure 13, in a housing 83 fixed to the back of the typewriter, Figure 2. Theupper ends of the jacks 82 are engageable by a tappet 85 presented by a column unit 89. There may be a column unit 86 for each computing zone traversed by the carriage 59. The units 96 are adjustable along the carriage in a rack frame rock-shaft 94 in the computing base.

4| rocks the draw link 54 counterclockwise about the pivot '52'to lift a toothed pawl 56 at the rear described parts 50, 48 45; and 44.

The platen 58 is in a typing carriage 59 movdiagrammatically represented at 81 and supported by carriage brackets 88. The units 86 traverse a supporting track 89 attached. to the housing 83. The lower ends of the jacks 82 abut connecting rods 90 pivoted to bell cranks'9l having a fulcrum rod 92 carried between side arms 93 fixed on a The bell cranks 9| abut master racks 95 which are connected asat 96, Figures 2 and 3, to transverse blades 91 rockable about their lower edges in notches of supporting bars-98 in the framework.

99 to a corresponding set of register bars 99. For

each set of couplers I09 there is a cam plate I 02 movable edgewise vertically in the housing 83.

- The cam plates I02. are selectively depressible by tappets' I93: presented by the column units 89 on the carriage. each column unit being thus adapted to depress one or more of the cam plates I02 according to a predetermined register-selecting plan. By its depression, a cam plate I02 works through an intermediate plate I04, guided in the housing 83 for vertical edgewise movement, and through connections I to a rock-shaft I00 journaled in the computing base, to raise the corresponding coupler-lifting plate IM and thereby raise the couplers I00 into operative connection, with the corresponding set of register bars 09.-

Thus by means of its corresponding cam plate I02 any of the several sets of register bars is connectible to the transverse blades 91 and hence to the series of denominational. jacks 82. In the present machine, there are nine computing pinions 08 and nine register bars 08 in a set so that each register has nine denominations. Correspondingly, there are nine of the denominational jacks 82 and nine corresponding transverse blades 91, the latter being indicated within the bracket 91 in Figures 2 and 3 to distinguish themfrom three other similar blades 223 to be described later. The racks 95, 99 are slidably guided at their ends in a frame I01 fixed to the framework; Springs, notfshown, applied to the racks 95 hold the latter, the racks 99 and the blades 91 in their normal positions in which the blades 91 abut stops, not shown, in said frame I01. Said frame I01 includes the blade supporting bars '98.

State control Depression of a cam plate I02 to lift a coupler plate IOI also operatesto lift a latch I08, partly shown, Figures 2, and 33, which is operatively connected to said plate I 0| Said latch I08 is lifted from and thereby releases a spring-pressed state controller bar IIO which is similar to the state controller in the Pitman Patent No. 2,160,487, dated May 30, 1939, which also shows suitable connections for lifting the-latch I08. Movement of the state controller bar II 0 consequent to its release is forwardly and is'limited by a secondary latch I08 to determine connection of the corresponding set of computing pinions 68 to the general operator mechanism in such way that during a cycle of the letter, said set of pinions is shifted for direct connection to the register.

purpose each column unit 88, Figure 12, may have a cycling tooth I I8 to engage a cycle trip lever Ill, pivoted on the housing 83 and thus depress a jack Hi to rock a cycle-tripping shaft H5 by means of connections diagrammatically represented at H5, Figure 10. The cycle initiating means are more fully shown in the aforesaid Patent 2,160,487. In the cycle the general operator-cross bar I I2 is reciprocated forward andback by means of a cycling shaft H1 and thereby reciprocates' those register bars in which any digit pins 10, from "1 to 9, have been set. correspondingly, the computing pinions 68 will be rotated additively or subtractively according to their above-referred-to manner of connection to the general operator mechanism. The drive, not yshown, from cycling shaft II1 to cross bar II2 may be as shown in Pitman Patent No. 2,178,702,

dated November 7, 1939.

Entering amounts At operation or the numeral type actions, by means of the power snatch roll 51, under control of the numeral keys for typing and computing racks 89' for addition. There is a state controller 1 mechanism for each register. A column unit 80 may have an additional tappet III", to depress a corresponding cam plate III. The depression of cam plate I I I is effective through connections, including and diagrammatically represented, Figure 13, by an intermediate plate I04, similar to I 04, and a thrust rod I05", to lift the secondary latch I09 to eflect a further shift of the state controller bar IIO. Further details, not shown, of such subtraction connections may be substantially as shown in Pitman Patent No. 2,091,717, dated August 31, 1937. This further shift of the bar I I0 determines connection of the corresponding set of computing wheels 08 to the general operator mechanism in such way that said set oi' pinions is directly connected to theidlers 12 for subtraction, during a cycle ofthe general oper ator mechanism.

' General operator A cross bar '2 extends transversely of all the register bars 69 and forms part of a general op-' erator mechanism such as that shown in the an amount, the carriage 59 traverses a computin; zone for which a corresponding column unit 86 will have been placed on the carriage. "This unit 86 will have, besides the denomination selecting tappet 85 for traversing the jacks 82, one or more register selecting tappets I03 which will have operated to depress a corresponding cam plate or plates I02 preparatory to traverse of the jacks 82 by their tappet 85. Each depressed cam plate I02 is effective, through the corresponding set of coupiers I00, to connect a corresponding set of register bars 69 to said jacks 82. As the jacks 82 are depressed seriatim at the traverse by the carriage of the computing zone at operation of the numeral type actions, the type actions operate through the rods M and pin-setting linkages 18 todepress corresponding digit pins 16 in the register bars 69 that are advanced to indexing p0.- sition under said linkages by the depression of the jacks 82. As the carriage leaves the computing zone following the typing and entering of the last figure of the amount, the cycling tooth II3 ol the column unit engages the cycle trip lever Ill t-ocause a cycle of the general operator mechanism to cycle the indexed register bars and thereby run the indexed amount into one or more sets of computing pinions 68. If the indexed amount is to be run into the computing wheels subtractively, the column unit 89 will have a tappet III" to depress the subtraction cam plate II I. Carryover devices, not shown, may effect extra carryover steps of register bars 69 bey0nd the advance of cross bar I I2 as exemplified in said Patent No.

Total reading and type selecting mechanism of an elongate bar slidably mounted in guides 0*, Figures 2 and 9, on the framework. Each computing pinion 88 has fixed thereto a disk having slots II8 of different feeler-stopping depths representing the different digital or angular posi tions of said computing pinion. A spring H9 is connected to each feeler III; for moving it to a stopped position, determined by one of the slots the'form of a tab I20 bentdat'erally from an arm I2I pivoted to the feeler at I22. Each arm I2I is urged counterclockwise by a spring I2I,

Figure 9, anchored to the feeler, to a normal position. in which the bottom edge of the tab I20 may abut the underlying edge of the feeler H6.

Extending transversely abovethe selectors I20 associated with the several sets of feelers H6 is a set of ten blades I24 corresponding to the digits to 9. The blades I24 are guided ina frame I23, Figures 3, 6, '7 and 9 for up-and-down edgewise movement. Said frame is fixed in the computing base framework and comprises slotted guides I26 at the ends of the blades for spacing the blades facewise, and cross pins I21 passing through oblique slots I28 in the ends of the blades.

The ends ofthe pins I21 are reduced in diameter and are journaled in cross members I28 of the frame so that the pins may roll freely with the oblique up-and-down movements of the blades. The arrangement is such that a spring clip IM and a removable bushing I32 removably holds each pin in the frame. The blades I24 are spaced iacewise apart in accordance with the difierent positions assumed by a selector I as its feeler H6 is stopped in one or another of the computing pinion notchesI I8. By means which will later be described, each selector I20 is lifted by turning its arm I2I about the pivot I22. The lifting of a selector I20 lifts the blade I24 under which the selector is positioned by means of the computing pinion slot II8. A fulcrum-rod I34 in the typewriter frame mounts levers I35, one for each of thetype actions from "1 to 9, Figures 2, 6 and 7. Arms I36 of said levers extend over the blades I24 and are spaced laterally by a guide comb I33. An additional lever I35 serves both for the 0- type action'and the typewriter spacer action as will later appear and has an arm I31 engaged by the blade I24 corresponding to 0. Each of the blades I 24 has an upwardly extending tab I38, Figures 6 and '7, whereby it may engage-only the corresponding one of the levers I35, 135. Rearwardly extending arms I39 of the levers I35 have each a lateral pin for engagingan arm I40 of the draw link'54- of the corresponding type action. The other lever I35 has ,an arm I'4I having a pin I42 for engaging a pin I43 fixed in a rock-shaft I44 having 'reduced ends journaled in brackets I45 of the framework.

Said rock-shaft I44 has another pin I46 for engaging a stud I41 of a lever I48 fulcrumed on the rod I34. Said lever I 48 has another stud I49 for engaging the arm I40 of the draw link 54 for l the 0 type action. Another pin I52 fixed to said rock-shaft I44 engages astud I53 of the arm I40 of a draw link I54, Figure 6, which; may be connected by means of suitable connections to 4: a fulcrum rod I61 in the typewriter frame and.

,has a total key I68 at the typewriter keyboard.

141 of the lever I48 for the 0 type action draw link 54. Normally the rock-shaft I44 is in the Figure 6 position to connect it to the spacer draw link I55. Upon operation of any numeral type action from 1 to 9, the lever thereof engages a cam bevel I59 of the angle bar I56 and thereby shifts it and the rock-shaft I44 right;

wardly-to connect said rock-shaft to-the lever I48 for the 0 type action. The normal position, Figure 6, of the rock-shaft I66 obtains for spacing the typewriter carriage automatically from the highest denomination of a total-printing zone to the denomination in which the first significant figure of the total appears as where the total is of a less number of denominations than the number of denominations of the total-printing Zone. The automatic carriage spacing is substantially as set forth in the aforesaid Patent No. 2,192,365 and on the spring I6I. A spring I64 react between I the upper surface oithe plate I60 and the screw I63 to hold the latter frictionaliy in its adjustment. The screws I63 and cooperating springs 'I6I thus serve to finely adjust the contact connection between the arms I36, I 4| and blades I24 and the screws may be conveniently regulated after the machine is assembied'by means of a screw driver which may be introduced between alphabet type key levers I65 Figure 2 of the t ypewriter. Another blade I24 Figures 6 and 7, is for controlling case shift mechanism in printing an overdraft total as set forth in the aforesaid Pat- 'ent No. 2,192,365.

Total key controlled carriage tabulating- A total key lever I66, Figures 2,19 and 21, has

- Said key lever engages, at I69, avertical reed I10 the rocker for the typewriter escapement dogs 64 as exemplified in the aforesaid Patent] No.

2,192,365. Such connection is diagrammatically represented by'the partly s hown lever I55, fulcrumedon the rod H to which the draw link I54 is pivoted similarly to the pivoting of the draw links 54, to the levers 50.

An angle bar I58 is slidably supported at its ends in brackets I51. of which only one is shown,

Figure 6, for endwise shifts in opposite directions.

The angle bar is notched as a I58 to engage the pins of the rock-shaft 144' for connecting said rock-shaft to shift endwise with said angle bar I56. The rock-shaft I44 is shiftable for connecting either its pin I52 to the pin I53 of the spacer draw link I54 orto connect its pin I45 to the pin guided at its upper end inv a slotted fixture I1I, Figure on the typewriter frame, which simie larly guides denominational tabulating stop reeds 112., A rod in in said fixture passes through slots I14;in the reeds to guide them at their lower ends which are guided laterally in lower slots-of the fixture. A stop I15 'on the column unit 88 may cooperate with any denominational reed I12 that is lifted by means of a denominational I tabulatmg key'lever, not shown but similar to the total key lever I66. The total key operated reed I10 is shorter than the reeds I12, Figure 12, so that it is not projectible intothe path ofthe stop I15. Said reed I10 has arearwardly extending arm I16 having a pin-and-slot-connection I11 to astem I18 guided in the comb 84 in the'housilru,

83. An upper-"transverse plate I80 on said stem I18 has side can I8I guided in vertical slots I82,

Figure 18, of the housing 83. A bar I85 is 10n- -gitud 1nally channeled on its u 'derside to slidably fit over the plate I80, the latter having angular slots I86 opening into itsupper edge for the hitroduction ofv transverse pins I81 in the channel of the bar I85. The slots I88 are elongated hori-v and to permit lateral movement of the bar relavelyto the plate. When the plate I is raised.

zontally to retain the bar by means of the pins by depression, of the total key I88, a latching shoulder I88 thereof, Figure 18, is drawn over a spring-pressed latch I89 pivoted at I90 in the housing 88. For this purpose the plate I80 is capable of slight lateral movement in its guide slots I82, and it is urged rightward, to drawits shoulder I88 over the latch I89, by a spring I9I pulling downwardly and rightwardly. A counterstop tooth I92 on the bar I85 is thusplaceable, through lifting of the plate I88, into the path of a tooth I93 on the column unit 88. The totalkey-lifted reed I18 has, similarly to the denominational reeds I12, an arm I98 to engage a universal bar I98 fixed to a rock-shaft I91 iournaled in the fixture I1I. Thus when said reed I10. is lifted, the rock-shaft I91 operates through an arm I98 thereupon to rock a lever I99, pivoted on the fixture ill, to lift the letter-feed rack 8I from the escapement pinion 82 to release the carriage for consequent movement by the spring motor 88 in tabulating direction. The carriage tabulating movement is terminated when the column unit tooth I98 strikes the tooth I92 of the bar I85 and thereby moves said bar, together with the plate I88, leftwardly to release it from the latch I89 for consequent-downward restoration by the spring I8I. At such restoration,- the reed I18 is also restored thereby permitting the rack 8| to reengage the escapement pinion 82 for final.

- ly settling the carriage in the tabulated-to Dosi tion. The arrangement is such that'said car riage istabulated to the highest denomination place of the total printing zone. By having the plate I88 latched in its upper position by the latch I88, it is unnecessary to keep the total key lever I88 manually depressed to retain said position. The carriage is usually returned by power in this type of machine. Should the bar I85 and its tooth I82 be in upwardly projected position at such return of th carriage, encounter of the column unit tooth I88 with the tooth I82 can result in no'damage to the parts because in such case the tooth I88 ,will move the bar rightwardly relatively to the plate I88. Thereby the bar I85 will engage and rock the latch I88 clockwise oi.

Figure 18 to withdraw it from the shoulder I81 of the plate -I88 so that the latter and the bar I85 are restored downwardly automatically by the spring "I thereby permitting the carriagereturn movement to proceed. After such restoration of the plate .I80,'a latch spring 288 rocks the latch .I88 counterclockwise again and restores the bar I85 leftwardly relatively to the plate I88. It will be seen thatthe left side of the tooth I82 is slanted so that the encounter of the carriage tooth I88 therewith tends to cam the bar I85 and plate I88v downwardly to facilitate their downward restoration.

Mechanism responsive to the total key to enable the carriage to control total printing At elevation of the total-key-operated reed I10, a stud 20I thereon, Figures 2, 12, Band 19, engaging a cam-beveled end of a rod 202, slidably guided in a slotted plate 288 and in a socket 288 of the housing 88,thrusts said rod endwise rearwardly to a position in which it is caught is yieldably connected to said rod by a spring 2 I0. Said rod 282 and comb 208 are within open- .ings 205 of the register selecting cam plates I02 so that the comb 288 is articulated as at 2II to 5 each of said cam plates I02. Said cam plates are capable of rearward and forward tilting movement about their lower guide combs 2I2 in the housing 83. Thus upon rearward movement of the thrust rod 202, the upper cam edges of the cam plates which are normally aligned with the positions for the register-selecting tappets I03 of the column unit 88 are shifted rearwardly to V align said cam edges with positions provided for a total-taking-control tappet 2I8 in the column unit 88. One such tappet 2I8 may be located on the unit 88 for a total printing zone of of the carriage to coact with that cam plate I 82 which corresponds to the register from which a total is to be printed at that zone. Following the printing of the total the carriage trips the latch 288, as will be described later for resulting forward movement or the rod 202 by a spring 2. This rocks the plates I82 forwardly to their normal, Figure 2, position. 1

When, through operation of the total-key-lever I88, the cam plates I82 have been shifted to the positions, Figure 12, wherein one or another cam plate may coact with a corresponding total-taklug-control tappet 2I8, thhe upper edges of the openings 288 of said cam plates I02 are positioned over upwardly extending tabs 2" of arms 2 extending rearwardly from jacks 2". There is a corresponding Jack 2 for each cam plate I82 and in the normal positions, Figure 2, of the cam plates I82, the latter are clear of said tabs 2I5. Thus, the total-key-eflected shift of the cam plates I82 to the positions, Figure 12, connects thecam plates I82 operatively to said jacks 2I1. Said jacks 2I1 are vertically guided in the w combs 88, 88' that also guide the denominational 5 1301's 82, the latter being to the left of said Jacks 2l1 asinFlgure 34. There are three of the Jacks 2" in the present machine, one for each of the:

three registers. The jacks 2" are shorter than the denominational Jacks 82 so that they are out of the-path of the denomination-selecting tappet 88. Each Jack 2" abuts a thrust rod 2" pivoted to a bell crank 228'fuicrumed on the rod 82. Each bellcrank 228 abuts a rack 22I that 91s slidably supported like the denominational master racks 88. The three racks 22Iare articulated respectively to corresponding transverse blades 228, Figures 3, 5, 13, 16, 17, that are similar to the denominational blades 81 and are rockable about their lower edges in the notched bladesupporting bars 88. The blades 228 are connected as at 228, Figure 16, to a common rack 22: slidably supported in the mine m1. Said rack 228 is connected by a link 228 to an arm 80 221 fixed to a transverse rock-shaft 228 journaled in brackets 228 in the computing base frame-,

work.

Each blade 228 is also connected as at 2I9, Figure 5. to a corresponding rack 222 slidably 05 supported in the frame I 01, Figure 2.

' Each rack 222 has its forward end opposite a stud 288 of a bar 28I' that is slidably guided at its rear end portion in the rear guide comb 1| for the companion set of register bars 88, Figure 13. there being one of said bars I for each r sister. Each bar 28I extendsforwardly for pivotal connection as at 282, Figures 3 and 5, to warm 288 connected by a spacing yoke 288 to a latch pawl 285. The yoked arm 288 and pawl '18 288 are loosely fulcrums on a transverse rocka square stud 238 on a link 239, Figures 3, and.

17. By means of a slot 240 therein, said link 239 is slidably guided at its rear end in a groove of a stud 241 on an arm 242 fixed to a transverse rock-shaft 243 iournaled in the computing base framework. The forward end of said link 239 is pivoted at 244 to a lever 245 fixed to a transverse rock-shaft 246 joumaled in the computing base framework. Said lever 245, and similarly formed arms 241 on shaft 246, Figure 19, are each connected by a link 248 to a transverse restoring bar 249 associated with the several sets of feelers I I6.

. Associated with each set of total-reading feelers H6there are right and left plates 256 having supporting connections 25! to the cross members I29 of the supporting frame I23, Figure 9. Each plate 256 has a horizontal guide slot 252 for the feeler-restoring bar 249. Each pair of plates 250 supports two slotted cross bars 253. Within each pair of plates 259 and adjacent thereto is a, pair of drop plates 254, Figure 9A, vertically guided by the slotted cross bars 253 and by an additional slotted cross bar 255 supportedby Each drop plate 254 is slotted at 256, Figure 9A, to support a cross rod 251 which passes through slots 258 of interponent plates 259, Figure 9B, of which there is one for each feeler H6. The interponent plates 259 are laterally spaced and vertically guided by the slotted cross bars 253, 255 and are normally held in raised positions by the cross rod 251 supported by the drop plates 254 which in turn are held in raised position by the feeler restoring bar 249 which normally is under shoulders 269, Figures 9A and 1'1, of said drop plates 254. When the restoring bar 249, urged by a spring 26l acting on the lever 245 or 241, is moved forwardly, through release at the latch arm 231, a selected pair of drop plates 254, .together with the companion setof interponent, plates 259, may drop by gravity so that a V- shaped lower camming point 262 of each dropped interponent plate 259 settles between two adjacent 9rack teeth of a corresponding register bar 6 Conflning totai reading and type selection to a carriage-selected register For each register there is an individual rock the plates 2 50.

the latch 23", 238.

to engage in the feeler-stopping slots H8'of the corresponding set ofcomputing pinions. Normally the feelers H5 are restrained by the normally raised interponent plates 25 9 in that rollers or studs 213 on the type selector arms 1 2| on said feelers are behind the raised interponent plates 259 as in Figure 9B. .When a set of feelers H6 and companion set of interponent plates 259 are thus released, the feeler restoring bar 249 will have been released and will have been moved forwardly through carriage-effected release at At such forward displacement of the restoring bar 249, the other sets of interponent plates 259 and feelers H6 are remore than one set of interponent plates 259 and feelers H6, the following interlock mechanism may be provided. Each rock-shaft 264 has fixed thereto a locking 'arm 21! rocked to release its associate feelers and-interponent'plates, said locking arm-crowds two transverse locking bars 215, Figures 8, 9 which are slidable endwise upon pin-and-slot connections 216 to the frame I23. The crowding of said locking bars by one of'said locking arms 21l blocks the T locking arms 21l associated with the other registers and thereby prevents simultaneousrelease of more than oneset of feelers H6 and interponent plates 259. .--The described control of the selection ofa set of feelers H6 supplements the register selection, for total-printing, effected by coupling the corresponding register-bar-set to the set of denomination jacks 82, and such control constitutes a safety device. f

Timing the coupling of the highest denomination register bar and corresponding denominational I jack riage stands at the position corresponding to the highest denomination of a total-printing'zone and has depressed the highest denomination jack 82 thereby causing advance of the highest denomination distributive rack 99 for the carriage-selected register from which the total is to be printed. At thesame time, the coupler control plate I 0 l-will have been raised to operatively connect, by means of the couplers 166, all the other distributive racks 99 for said register to the corresponding register bars 69. A coupler 218 pivoted to the highest distributive rack 99 is not' inon a rod 263 which may be supported by the plates 259 and said lever is engageable by a stud 210 of the bar 23| and in turn engages one of the latch arms 266. Forward displacement of said bar 21, effected under control of the carriage as above described, turns said lever 269 clockwise, Figure 14, and thereby withdraws the latch arms 266 from the drop plates 254. This permits said drop plates and the companion set of interponent plates 259 to drop by gravity. As

' the interponent plates 259 thus drop, the companion set of feelers is permitted to move forwardly, under the urge of the feeler springs H9,

fluenced by the coupler raising plate Hll but is controlled independently as follows, Figures 2, 3,

5, 13-15. When the latch arm 231 is retracted to release the link 239, the resulting forward .movement of the feeler controlling bar 249 is accompanied by forward movement of the springurged feelers I I6. Said feeler controlling bar 249 has movement in' excess of the maximum movement of any feeler H6. By said excess move- I ment, a lateral stud 219 of; the link 239, which partakes of said excess movement, engages a dam arm 289 that is yoked at 281 to a latch arm 282,

said arms 280, 282, being loosely fulcrumed on the rock-shaft 22 8. Saidlatch arm 282 is therefore rocked clockwise through said excess movement and retracted from a square stud 283 on the arm 242 which is fixed to the transverse rock-shaft 243. For each register, said rock-shaft 243 has movable therewith in counterclockwisedirection as will be explained presently, an arm 264 having a pin-and-slot operative connection 285 to an exstrained by means of their respective latch arms V when the shaft 264 is.

tension'of the coupler 218. Thus, with "the being for 0,

I 284, 288 counterclockwise, Figure lateralpin 298, Figures 3 and; 15 in clockwise the arms 29I under the 'of the arm blocks restoration of said bar ,23I as, in Figures I as by abutment of the arm distributive rack 99, on which said coupler 218 is pivoted, having been advanced by means of its jack a2, and with the shaft 24: having been spring rocked counterclockwise consequent to retraction of the latch arm 282, said shaft will have operated to raise the coupler 218 against the.

highest denomination register bar 69 and thereby will have cammed the latter slightly forward, as in Figures 13, 14, said coupler having at its forward end a camming bevel engaging a roll 288 on theside of the register bar. This slight ad- Vance of the register bar 59 raises the corresponding dropped interponent plate 259 by means of the camming point 262, as in Figure 13. In turn, sald interponent plate 259, with its upper horizontal edge under the roller 213 of the type selector arm I2I, turns said arm I2I clockwise so that the selector I28 thereon, lifts the blade I24 under which it is positioned and thereby causes an opby depression of the highest denomination jack 82, the carriage takes a letter-feed step and thereby engages and depresses the succeeding jack 82 to cause another operation of the carriage spacer or of a type action as determined by the feeler-read angular position of the computing pinion associated with said succeeding jack 82. It will be recalled that the carriage spacer is worked automatically for all computing pinions that register insignificant zeros ahead ofthe first significant figure of a total, as where the total is of a lesser number of denominations than the number of denominations constituting the computing or total-printing zone. But for the first significant figure denomination, and for each succeeding denomination, a type .actionis caused to be operated through the depression by the car riage of the jacks 82 corresponding to these 'deeration of the corresponding type action depending on the blade lifted being for a significant figure type action, or causes an actuation of the tyi ewriter spacer depending on the blade lifted Said actuation of a type action or of the spacer is effected, of course, by the snatch roll 51.

It will be seen, now, that the slight forward advance of the highest-denomination register bar 69 and the resulting eflecting actuation of a type action, or of the carriage spacer can occur only after the feelers I I6 and selectors I28 have been given time to completetheir maximum movements for selecting a blade I24., Hence there can occur no lifting and collision of a selector-I28 with the blades I24 while the selectors are being moved forwardly with their feelers H6.

The coupler controlling arm 284 is connected flange 288'. concentric with the rock-shaft 243 on which said arms are loosely fulcrumed. A spring 289 connected to each yoke 28! urges the arms 5, so that a I the arm 284 abuts an edge of an adjoining arm 29I fixed to therock-shaft 243. When the shaft 243 is released-by retraction of the latch 282, it is rocked counterclockwise by a spring 292 connected to the stud 2 of. the rock-shaft arm 242, Figures 3 and The arms 284, 288 tend to follow counterurge of their spring 289. Therefore, if a bar 23I has been slightly advanced, the corresponding flange-288 2B8 becomes, positioned behind and 13, 14, for a purpose explained hereinafter. The flanges 288', corresponding to the bars 23I that are not advanced, merely stop upon the upper edges of saidbars 2: when the shaft 243 is rocked counterclockwise, the respective springs 289 being therefore, ineffective to move the flanges 288 farther while the rock-shaft spring 292 rocks shaft 243 to its full extent which maybe limited 242 with a stop 293, Figure 5.

- I Printing the total The carriage reaches the highest denomination of a total-printing zone and depresses the highest denomination jack 82 through having been caused to'be tabulated to said zone or highestdenomination by operation of the total key lever I86. Pursuant to the above-described operation of the carriage spacer or-of a numeral type action caused lifting of a blade I24 forv a yoke 281 to an, arm 288 having a curved" nominations, it being understood that the carriage spaces at each operation of a type action and thereby causes operation of another type action. This briefly-described progress of the printing of the total is more fully set forth in my aforesaid co-pending application, Serial No. 42,611, now Patent N ,714, and inthe Pitm atent No. 2,192,365.

Clearing the register jrom wii p the total a printed r When a cam plate I82 is depressed by the to? control tappet 2I3 of the column unit 86, it is efl'ective, in the same way as described in the above section on State control, to withdraw the corresponding latch I98 to release the springpressed state-contrcller bar H9. It will be remembered that the jacks 2|! have become operatively connected at their tabs 2I5 to the cam plates I82'when the latter have been shifted rearwardly by operation of the total key lever I65.

40 Each arm 2| 8 of a jack 2|! overlies a forwardly extending tongue 295, Figures 12, 13, 19 of the subtraction cam plate I I I. Thus at depression of a cam plate I02 by the total-control tappet 2I3, the corresponding jack 2I1 is depressed and in turn depresses the subtraction cam plate I I I to effect withdrawal of the latch I09 whereupon the state controller-bar H8 assumes its extreme forward position to determine subtractive connection of the computing pinions to the idlers 12 during a subsequent cycle of the general operator. At operation of the type actions for printing a total, the corresponding pin-setting linkages 18 are actuated to set those register pins 16 corresponding to the total standing in the computing pinions. Thus at said subsequent cycle of the generaloperator, the total will be cleared from the computing pinions so that all of said pinions of the set from which the total was printed should finally stand at zero.

The carriage automatically initiates the cycle in which the total is cleared. For this purpose the cycling tooth 'I I3 on the column unit 86 passes over and rocks the cycle trip lever H4 in that clearing the register from which carriage step which follows the printing of the last figure 01' the total. I

Automatic clear sign printing cent the total printed on the worksheet to signify that the indexing and cycling operations attending the automatic total-printing have resulted in the total was printed. The mechanism, Figures 1-5,- 31, 32, for this purpose will now be described. 1 The computingpinion discs that have the total- 

